EP1516689A1 - Dispositif et méthode de soudage par ultrasons de pièces comme des fils électriques, en particulier des torons - Google Patents

Dispositif et méthode de soudage par ultrasons de pièces comme des fils électriques, en particulier des torons Download PDF

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Publication number: EP1516689A1
Authority: EP; European Patent Office
Prior art keywords: anvil; sonotrode; compression; compression space; objects
Prior art date: 2003-09-19
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Withdrawn

Application number

EP03405683A

Other languages

German (de)

English (en)

Inventor

Michael Kammerer

Albert Büttiker

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Telsonic Holding AG

Original Assignee

Telsonic Holding AG

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

2003-09-19

Filing date

2003-09-19

Publication date

2005-03-23

2003-09-19 Application filed by Telsonic Holding AG filed Critical Telsonic Holding AG

2003-09-19 Priority to EP03405683A priority Critical patent/EP1516689A1/fr

2005-03-23 Publication of EP1516689A1 publication Critical patent/EP1516689A1/fr

Status Withdrawn legal-status Critical Current

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Classifications

- B—PERFORMING OPERATIONS; TRANSPORTING
- B06—GENERATING OR TRANSMITTING MECHANICAL VIBRATIONS IN GENERAL
- B06B—METHODS OR APPARATUS FOR GENERATING OR TRANSMITTING MECHANICAL VIBRATIONS OF INFRASONIC, SONIC, OR ULTRASONIC FREQUENCY, e.g. FOR PERFORMING MECHANICAL WORK IN GENERAL
- B06B3/00—Methods or apparatus specially adapted for transmitting mechanical vibrations of infrasonic, sonic, or ultrasonic frequency
- B06B3/02—Methods or apparatus specially adapted for transmitting mechanical vibrations of infrasonic, sonic, or ultrasonic frequency involving a change of amplitude
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K20/00—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating
- B23K20/10—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating making use of vibrations, e.g. ultrasonic welding
- B23K20/106—Features related to sonotrodes
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R43/00—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
- H01R43/28—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for wire processing before connecting to contact members, not provided for in groups H01R43/02 - H01R43/26
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K2101/00—Articles made by soldering, welding or cutting
- B23K2101/32—Wires

Definitions

the invention relates to an ultrasonic welding device and a method for ultrasonically bonding objects such as electrical conductors, in particular of strands, having the features the preamble of the independent claims.
the strands in one through an ultrasonic sonotrode, an anvil and a side shifter Insert formed compression space.
Sonotrode and anvil reduce the compression space.
the strands are pressed against each other and through Welding with ultrasound welded together.
US 6 299 052 shows an ultrasonic welding apparatus in which the size of the compression chamber before and when inserting monitored objects to be welded with a controller becomes.
US 5,772,100 shows a welding gun, in which a sonotrode attached vibrationally decoupled via a springy mounting is.
US 607 077 shows a similar welding pliers arrangement, at the height and width of a compression space is changeable in a defined manner.
US 5,921,457 shows a specific anvil shape for an ultrasonic welding gun.
DE 35 08 122 shows an ultrasonic welding device when a sonotrode in a sonic node by means of studs is clamped in a sonotrode holder. Thereby can the sonotrode head in a relative to an anvil Fasten adjusted position.
DE 37 10 603 shows a pistol-like ultrasonic welding gun.
DE 37 45 065 shows a method for ultrasonic bonding of electrical conductors, in which the compression of a Compaction space through joint horizontal shifting of two anvil surfaces in continuation of a common vertical displacement is carried out.
From EP 723 713 is a method and apparatus for compacting and then welding of electrical conductors in which by forced coupling of parts of a counter electrode the sonotrode a fixed heights to widths Ratio of the compression space can be achieved.
From DE 37 19 083 is also a method for connecting electrical Head known by ultrasound, in which a compression space reduced by common vertical and horizontal movement becomes.
From DE 19 540 860 is an ultrasonic welding device known. Then two of the compression space on the periphery partially enclosing Gegenelektrodenmaschine at least temporarily forcedly coupled.
From DE 44 29 684 a method for compacting and subsequent welding of strands known by ultrasound, in which after compaction the conductor is measured a value, the size of the Compaction determined.
02/43915 is also a device for joining objects as well as tools known in which a working part with a work surface by soldering, gluing, welding or Shrinkage is connected to a support member.
the known devices and methods all have certain Disadvantages. In particular, it is with known devices difficult to position the sonotrode accurately aligned. Before the operation of known devices is an adjustment the sonotrode necessary so that the working surface of the sonotrode tip exactly in a desired level. Another one A problem with the known methods and apparatus is that that the devices are relatively large dimensions exhibit. They are therefore poorly suited as handsets.
Another disadvantage of the known devices is that that due to the friction between individual to be shifted Parts of abrasion arise and great forces must be expended. Moreover, there is the problem with known devices, that in particular during the welding of strands individual wires the strands are clamped in gaps between the parts to be moved can be. Another disadvantage of known devices is that the cycle times are proportionate are long. Relatively much time is spent at the beginning of the compression process lost when the dimension of the compression space but the anvil is not yet reduced in contact with lies to the objects to be connected. A common problem in such devices is also in the monitoring and control of the various parameters, namely the position the compression space limiting parts and the on the force applied to connected objects. Another Problem is that it is often incomprehensible later is what positions and other welding parameters which welding results led to.
Another object of the invention is that Improve cycle times. Yet another object of the invention is to provide a device by means of which the positions and / or the objects to be welded applied force determined precisely, quickly and easily can be. In addition, there is another object of the invention to provide a device and a method by means of which a quality control of the welded joints produced reliably possible in a simple manner.
the inventive ultrasonic welding device is used for Connecting objects, typically electrical conductors.
the device is for connecting strands suitable.
a conceivable field of application is for example the Welding of wire harnesses for the automotive industry.
the ultrasonic welding device has a compression space for recording the objects to be welded on.
the compression space is on at least one side by a working surface of a Sonotrodesspitze a sonotrode limited.
the compression space is also typically by a side shifter and limited an anvil in a conventional manner.
the Sonotrode is resonant at a frequency such that that they have at least one longitudinal oscillation zero point having.
Invention is the sonotrode in the region of the oscillation zero point provided with a flat contact surface.
the area Contact surface lies flat on a flat bearing surface of Ultrasonic welding device on.
this aspect of the invention has the working surface of the sonotrode with respect to the Contact surface on a precisely predetermined position.
the working surface of the sonotrode runs parallel to the contact surface.
a parallelism within allowed by certain tolerances.
deviations would be the sonotrode tip of 0.02 mm, preferably 0.01 mm based on a precise parallelism conceivable.
the device may also be provided with adjusting means, by means of which the sonotorde in a direction parallel to Support surface is adjustable. Due to the flat edition between Contact surface and bearing surface is the plane of the longitudinal axis the sonotrode is well defined. The direction of the longitudinal axis However, this is not exactly defined. She gets along Accurately adjust the help of these adjusting agents.
the sonotrode has a separate sonotrode tip which is provided with guide means.
the sonotrode tip can be precisely predefined Fix the angular position on the sonotrode.
the Welding device on a compression space on, by a Working surface of a sonotrode tip, through an anvil with a vertically movable side panel and a horizontally movable Upper part and limited by a side slider is.
the top is and / or a protective space covering the compression space with a cable connected to a drive device.
the drive device may be a pneumatic drive device be.
the housing can therefore be designed to save space, as the Drive devices can be brought to a place where enough space is available. While this aspect of Invention alone has special advantages is of course a combination of such a drive with the above-described storage of the sonotrode especially advantageous.
the compression chamber at least on one boundary side, typically provided on the side part of the anvil part with a protective plate.
the protective plate may in particular be a hard metal plate, for example made of CPM10V Zapp, surfaces hardened HRC 61 +/- 1. be.
the compression space bounded by a side shifter.
the side shifter is approximately perpendicular to a compression space bounding Sliding surface movable.
the against the work surface the sonotrode directed side of the side shifter is so beveled that between the work surface and the sideshift a gap is formed, extending from the boundary surface extended.
the Displaceability of the sideshift improved.
the friction is reduced.
the problem of jamming is also Wires of the strands to be welded reduced.
the compression chamber partly by a movable against a sonotrode tip Anvil limited.
the anvil is over with a gearbox connected to a drive.
the gearbox points within a hub of the anvil different translations.
the anvil has a guide means in a guide slot is stored.
the guide slot is used to move the Anvil for the purpose of reducing the size of the compression space.
the guide link at least two guide sections at an angle to each other on. It is also a curved guide portion conceivable.
the differently arranged guide sections lead to different translations. With constant drive speed Therefore, the anvil in different Move positions at different speeds become.
an ultrasonic device proposed in the at least one pneumatic Drive device with a pneumatic cylinder for moving the Anvil is provided.
the pneumatic cylinder pressure measuring means By means of this Pressure measuring means is the pressure in the cylinder and thus with the Cylinder on the objects, e.g. the strand exerted force measurable. This allows easy monitoring of the welding process and the detection of corresponding force values. Also this aspect of the invention is advantageous in itself, But can also be with the other described embodiments combine.
Another aspect of the invention is also that in an ultrasonic welding apparatus in which at least one movable part such as a side slider, an anvil or a Protective hood is operated by pneumatic actuators, the Pneumatic cylinder with a pressure line with a pressure generator are connected.
the pressure line is such long chosen that the pressure generator outside of a housing the welding arrangement can be arranged. This allows to form the welding gun especially with low weight, so that they are flexibly placed in different places can.
it is particularly advantageous to have several possibly existing compressed air lines together to one Strand to summarize.
it is advantageous to Flexible design of compressed air lines so that the ultrasonic welding device easy to move.
the objects are first in inserted a compression space through a work surface a sonotrode, an anvil with a top and a side part as well as limited by a side shifter or limited is.
the compression chamber closed and the inserted objects become by moving one of the compaction space delimiting elements, in particular by moving an anvil surface of an anvil compressed in the direction of the working surface of the sonotrode.
the inserted objects subjected to ultrasound. This will make them together welded.
the Compaction space for removal of the welded objects opened again.
the opening process is done by first the side gate is preferably only slightly opened. Then the anvil is started up. It will be at the same time moves the top of the anvil against the side shifter. Typically, the top of the anvil with a Spring automatically pressed against the side shifter as soon as the Anvil moves upwards. Before the upward movement of the anvil starts, the top does not move, since it is with a force applied and thereby against the welded Strands is pressed. When booting the anvil part is the Upper part automatically by the spring force against the by the Side slide formed counter-stop pressed.
An advantage This procedure consists in that possibly in the compression space lying, single wires when returning the top of the anvil can not be pinched. Instead, they will pressed in the direction of the compression space and can from there be removed. The risk of jamming therefore exists Not.
the sideshift is opened only very slightly. Typically, there is a movement of 250-400 microns. Then the anvil is started up. The side shifter will be opened afterwards. The upper part of the anvil lies here on the sideshifter. The top is moved back only when the anvil is in the raised position.
the positions become the moving parts, so typically the top and the lateral part of the anvil as well as the lateral pusher measured and stored.
the Amount of force exerted on the items for example measured by a pressure sensor in a pneumatic cylinder.
the values determined in this way are stored. This is It is possible at any time, with a view to quality control to check the welding parameters. In particular, you can use it as well Quality control statistics are created.
the positions of the movable elements with a digital encoder, such as a magnetic sensor measured.
the position of the sideshift be measured with a digital incremental encoder.
the Position of the anvil in the vertical direction will typically determined by a magnetic linear encoder.
the encoder is not on the anvil itself but in the area of the guide slot attached to operate the anvil. Due to the Translation, which is achieved with the guide link, is the accuracy with which the anvil position can be determined much larger in this embodiment. This can also be done magnetic linear encoders are used, their precision not sufficient for the direct determination of the anvil position would.
a compression of the compression space with a predetermined force takes place in a first Compression step a compression of the compression space with a predetermined force. At a certain degree of compression the force is no longer sufficient for further compression out. At this moment the anvil stops. According to this Aspect of the invention becomes the position at this time of the anvil, in particular its upper part determined. At a Predetermined force should be the position of the anvil at predetermined always be the same. A Position of the anvil, which deviates from this nominal position, is an indication that the items are not correctly in the compression space could be positioned or that items missing or in the case of strands individual wires not available are. If too great a deviation from the nominal position is detected welding is not carried out.
a predetermined Setpoint corresponds to the compression chamber or in it contained objects subjected to ultrasound and thereby welded.
the anvil is in a second compression step subjected to a greater force, so the compression space is further compressed.
the ultrasonic welding device 1 has a sonotrode 2, with which to Welding objects such as strands with ultrasound are bearable.
the sonotrode 2 is equipped with a converter 12 in a conventional manner in ultrasonic vibrations movable.
the converter 12 is by means not shown Ultrasonic generator vibratable.
the sonotrode 2 has a sonotrode tip 22, which by means of a Fixing screw 27 is attached to the sonotrode 2.
the sonotrode tip 2 has a working surface 21 on which placed the objects to be welded and through which they can be acted upon by ultrasonic vibrations.
the device 1 also has an anvil 3.
the anvil 3 has brackets 48. On the brackets 48 is a side part 31 and a top 32 arranged.
the side part 31 is attached to a holding block 42 held with the holders 48.
the upper part 32 is slidably held in the holding block 42.
a cover 43 covers the sliding in a guide held top 32 from.
the side part 31 is provided with a hard metal plate 38 provided.
the hard metal plate 38 is located on the side part 31 on the side facing a compression chamber.
Of the Anvil 3 is provided with a guide pin 37, with which he is guided in a guide slot 36.
the guiding scenery 36 is movable via a pneumatic cylinder 35, whereby the anvil 3 in the direction R is movable up and down.
the printing cylinder 35 is not accurate over a pressure line 39 with a connected pressure generator connected.
the upper part 31 has a Bore 47, in which a cable 33 is fastened. through the cable 33 can be the upper part 32 in the guide in Move holding block 42.
the cable 33 is not designated Pulleys with a drive 34 for the upper part 32nd connected.
a side slider 5 is provided.
the side slider 5 is covered by a protective hood 7.
the protective hood 7 can be actuated by means of a cable 73.
the cable 37 is about unspecified pulleys connected to a pneumatic drive 74.
the side slider 5 is provided with a drive 54 in one direction H can be actuated horizontally.
the drive 54 has an electric motor 55 on.
the electric motor 55 is connected via a toothed belt 56 with a spindle not shown in detail in FIG. 1 (see FIG. 4) connected, which actuates the side shifter.
On a holding plate, which carries the motor 55 is also a digital Transmitter 61 is arranged. With the digital transmitter 61 can the position of the spindle and thus the side slider 5 at any time determine exactly.
the ultrasonic welding apparatus 1 is on a base plate 8 assembled. On the base plate 8, a holding block 9 is provided, having a bearing surface 10.
the sonotrode 2 is over a fastening ring 13 with a flat contact surface (see FIG. 9) is pressed against the support surface 10. This is the result Position of the longitudinal axis L of the sonotrode 2 precisely defined.
the Position of the sonotrode 2 in a plane parallel to the longitudinal axis is adjusted by two lateral screws 11.
FIG. 2 shows a more detailed illustration of the drive for the anvil 3.
the pneumatic cylinder 35 is an element operated with a guide slot 36.
the guide slot 36 has a first portion 36a and a second portion 36b on.
the sections 36a and 36b are at an angle to each other. This results in that at constant speed of the pneumatic cylinder of the anvil in a first compression section faster and with less force and in a second Compaction section with greater force and slower moves becomes.
the pneumatic cylinder 35 is typically 32 mm, 10 bar.
the sections 36a, 36b of the guide slot 36 are typically at an angle of 10 ° to the direction of movement of the Pneumatic cylinder 35. This results in a gear ratio of about 5.
a magnetic linear encoder (not shown) can be arranged in the region of the guide slot 36. This allows the position of the guide pin 37 to be determined. This also indirectly results in the vertical position of the anvil 3, in particular the vertical position of the upper part 32. Due the translation through the guide slot is the measurement the position of the guide pin 37 with the same encoder more accurate than the direct measurement of the vertical position of the anvil 3.
the magnetic field sensor is e.g. a MLFK 08T7101 from Baumer Electric.
FIG. 3 shows in more detail the anvil 3.
the holding block 42 On the two Dividing a holder 48, the holding block 42 is arranged.
the holding block 42 has a guide 45.
the top 42 of the Anvil 3 is slidably mounted in the guide 45.
Of the Top 42 is provided with a tip 44 which a against a compaction space directable boundary surface 40 has.
a hard metal plate 38 is arranged below the upper part 32, which a compression chamber limiting side part 31st forms.
the upper part is inserted through a bore 47 in the Cable actuated.
a compression spring 46 presses the upper part 32 away from the side slide 5, when the upper part 32 is not over the not shown in Figure 3 cable against the spring force against the side slider 5 is pulled.
the upper part 32 in the guide 45 is covered and held by a cover 43.
the individual parts shown in Figure 3 are in a conventional manner connected by unspecified screws.
a guide means 37 in the form of a screwed pin available.
the side slider 5, which next to the sonotrode tip 22 (see Figure 1) and the side part 31 and the upper part 32 of the Anvil 33 as the fourth element limits a compression space is held by a holding block 59 (see FIG. 4).
a holding block 59 In a Guide 60 of the holding block 59 is along a guide surface 52 a holder 58 slidably.
On the bracket 58 is the Sideshift 5 attached.
the side slider 5 has a counter a compression space directed boundary surface 51st on.
the holder 58 and thus the side slider 5 is by means a spindle 57 in a horizontal direction movable.
FIG 4 also shows a protective hood 7, which is used for covering a compression chamber during a welding process serves.
the protective hood 7 is held against a compression spring 76 and can be connected via a cable 73 (see Figure 1) with a Actuate pneumatic cylinder 74.
the parts shown in Figure 4 are in a conventional manner, for example by Screws connected together
FIG. 5 shows the drive for the side slide 5.
a motor 55 is fixed, which a Guide pulley 65 is actuated.
a toothed belt 56 is over the pulley 65 and two other pulleys 63, 64 out.
the guide roller 64 is a digital transducer, for example a digital incremental encoder (BSM1605K100-F-4-H from Baumer Electric).
the spindle for actuating the side slide 5 is connected to the deflection roller 63, so that the Sideshift 5 shifted by operation of the motor 55 back and forth can be.
the transmitter 61 allows it at any time determine the exact position of the sideshift.
FIG. 6 shows the details of the construction of the sonotrode tip 22 shown.
the sonotrode tip 22 is with a fastening screw 27 attached to a threaded pin 28 of the sonotrode 2.
the sonotrode 2 points at the against the sonotrode tip 22 directed end a recess 26, which congruent to a projection 25 is formed on the welding tip 22. Thereby can be a well-defined positioning of the sonotrode tip 22 on the sonotrode 2 achieve.
FIG. 7 shows a plan view in the longitudinal direction L (see FIG 1) to the welding device according to the invention.
One Compaction space V is determined by the elements sonotrode tip 22, Anvil 3 with side part 31 and top 32 and by the side slide 5 limited.
the compression space V are strands L inserted.
the strands L in a Gap between the side shift 5 and the side part 31st of the anvil 3.
the side shifter 5 in the direction H moves, so that the boundary surface 52 against the strands L is pushed.
the upper part 32 of the anvil 3 is against the boundary surface 52 brought into abutment. Subsequently the anvil 3 is moved vertically in the direction R.
FIG. 8a shows the initial position the compression space V limiting elements, namely sonotrode tip 22, side part 31 and upper part 32 of an anvil. 3 and the side shifter 5.
the side slider 5 and the upper part 32 in their lateral external position.
the anvil 3 is located in a vertical upper position.
strands 7 are joined together to be welded in the still open compression space V is inserted.
the side slider 5 is displaced in the horizontal direction H against the compression space V until a gap width S predefined as a function of the strands to be welded is established. Typically, the gap width for 40 mm 2 strands is 8.9 mm.
the movement of the side slider 5 is effected by operation of the motor 55 (see FIGS. 1 and 5). The position is measured by the transmitter 61, passed to a control device and registered.
a next step see Figure 8d
the upper part 32 of the anvil against the boundary surface 51 of the side slider 5 is brought into abutment.
the movement of the upper part 32 of the anvil 3 is effected by actuation of the cable 33 with the pneumatic drive 34.
a compression of the compression space V is 3 by pressing the pneumatic cylinder 35 in the direction R to drove down.
the applied force is constant. at a certain degree of compression moves the anvil. 3 not in the direction of R.
the end of the compression phase V1 is reached.
the vertical position of the Anvil 3 detected. If the vertical position is not within of certain tolerances corresponds to a nominal value, this is called Indicated that the strands L are not correctly in the compression space V are inserted. For example, strands could be inserted obliquely, single wires missing or out of one previous remains still remains in the compression space V remained be.
the setpoint for the position of the anvil 3 is depending on the type of strands to be welded, in particular Size and number.
the tolerance of the setpoint of the position of the anvil 3 may typically be 100 ⁇ m. If the position of the anvil 3 corresponds to the target position is in a next step (see Figure 8f) with the actual welding began. In a second compression step V2 becomes this moves according to Figure 8f, the anvil 3 in the direction R. To is a larger compared to the first compression step V1 Force required. At the same time with the ultrasonic sonotrode tip 22 ultrasonic vibrations U on the strands L given. This takes place under further compression of the Compaction space V a welding of the strands.
the welding takes a certain time.
the end of the welding is defined by certain predeterminable parameters. It is conceivable to weld, until a predefined Final height of the anvil 3 is reached until a predefined Amount of energy has been delivered by an ultrasonic generator is, or until a predetermined period of time is reached. Of the pressure applied by the anvil during the second compression phase is constant. In this way, the pressure increase can be checked become. It is also possible to set the final pressure at the end of the Welding or possibly a pressure drop during the Determine welding.
the side slider 5 is opened further.
the anvil 3 is moved upwards.
FIG. 8j take the parts bounding the compression space V. again the position according to Figure 8a.
the welded strands can be removed and new strands to be welded can be used in the open compression space.
a welding pass takes place according to FIGS. 8a to 8j in 100 ms to 2 seconds.
the anvil 3 is typically with a force of 2500 N in the first compression period V1 and V2 moves in the second compression period.
the Position of the side shift 5 (horizontal) and the vertical position of the anvil 3 is typically measured every 1 - 2 ms and saved.
Figure 9 shows a side view of the inventive Welding gun.
the sonotrode is the sonotrode 2 on the support surface 10 of the support block 9.
the attachment is made by contact pressure the sonotrode 2 by means of a fastening ring 13.
Die Contact surface 24 on the sonotorde is adjacent to a longitudinal one Oscillation zero 23.
the work surface 21 is parallel to the contact surface 10th with a maximum deviation of 0.01 mm.
FIG. 10 is a perspective view of the invention Welding device 1 shown. The representation corresponds essentially the exploded view according to FIG 1. Like reference numerals designate like parts.
FIG. 11 shows schematically the welding device according to the invention 1 with the corresponding connections.
the inventive device 1 is in one in the rest Drawings not shown housing 6 is arranged.
the housing 6 has an access to the compression space for inserting the to be welded Strands on. During welding is the access to protect the operator through the sliding protective cover 7 completed (see also Figure 10). It is also conceivable, for example, with a cylinder switch the position to capture the protective hood. A welding can not be triggered if the protective cover is not closed when For example, a finger of the user in the compression space entrained would.
From the housing 6 is a pressure line 39 for Operation of the anvil, a pressure line 79 for actuating the Protective cover 7 and a pressure line 49 for actuating the Upper part 32 of the anvil 3 to a Drukkermaschineer shown schematically 70 led.
the pressure lines 39, 79 and 49 can to be summarized in a single strand. They are e.g. out formed of a flexible plastic material. Their length is about 1.5 m to 2 m. As a result, the housing 6 of the ultrasonic welding device 1 are moved freely. About a high voltage cable 71 is the converter 12 not shown in FIG connected to an ultrasonic generator 72, which in per se known Way is constructed. The device 1 can also be provided with a cooling air supply, not shown. This makes it possible, in particular, for the converter and / or the sonotrode tip Blow with compressed air. The compressed air for cooling For example, by the pressure generator 70, if necessary be provided via a reducing valve. The Ultrasonic device 1 is operated by a computer arrangement 14.
the computer arrangement 14 actuates via control signals S72 the generator. In addition, via control signals S39, S79 and S49 the drives 34, 74 and 35 for the anvil and the side shifter 7 controlled.
the computer assembly 14 also operates via control signals S5, the motor 55 for actuating the Sideshift 5.
the computer assembly 14 will also Measurement signals M3 with respect to the vertical position of the anvil 3 and M5 with respect to the position of the side gate 5 transmitted.
the initial position of the page slider may be be determined by an inductive limit switch.
the side shifter is defined as defined by the limit switch Moved to initial position. Starting from this position then the current value is continuously updated with the digital transmitter Position of the moving sideshift determined. At the next turn on the device is again an initialization.
the Measurement signals M35 represent the pressure in the pneumatic cylinder 35. They are a measure of the anvil 3 in the vertical direction on the strands L exerted force.
the measured values M3, M5 and M35 are stored continuously in the computer arrangement 14. You can for statistical purposes and quality assurance be used.
the readings or others for the welding relevant parameters can also on a in Figure 11 not shown in detail visualization arrangement, typically a screen, are displayed. It is also possible, graphical representation of the measured values in the form of curves display.

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EP03405683A 2003-09-19 2003-09-19 Dispositif et méthode de soudage par ultrasons de pièces comme des fils électriques, en particulier des torons Withdrawn EP1516689A1 (fr)

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EP03405683A EP1516689A1 (fr)	2003-09-19	2003-09-19	Dispositif et méthode de soudage par ultrasons de pièces comme des fils électriques, en particulier des torons

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EP03405683A EP1516689A1 (fr)	2003-09-19	2003-09-19	Dispositif et méthode de soudage par ultrasons de pièces comme des fils électriques, en particulier des torons

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
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CN111604249A (zh) *	2020-04-15	2020-09-01	南京航空航天大学	一种大振幅的超声振动平台及其操作工艺
CN111702609A (zh) *	2020-07-15	2020-09-25	迈微思(深圳)科技有限公司	滤波器调试加工设备
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CN101920395A (zh) *	2010-09-07	2010-12-22	中国科学院长春光学精密机械与物理研究所	超声波铝丝压焊机用机头
CN101920395B (zh) *	2010-09-07	2012-02-08	中国科学院长春光学精密机械与物理研究所	超声波铝丝压焊机用机头
US20130299558A1 (en) *	2010-11-25	2013-11-14	Telsonic Holding Ag	Device for Torsionally Welding Metal Parts By Means Of Ultrasound
US8840005B2 (en) *	2010-11-25	2014-09-23	Telsonic Holding Ag	Device for torsionally welding metal parts by means of ultrasound
US9248520B2 (en)	2010-11-25	2016-02-02	Telsonic Holding Ag	Device for torsionally welding metal parts by means of ultrasound
CN104918743A (zh) *	2013-01-15	2015-09-16	日产自动车株式会社	接合状态检查方法
EP2946869A4 (fr) *	2013-01-15	2016-03-16	Nissan Motor	Procédé d'inspection d'état de soudage
CN104918743B (zh) *	2013-01-15	2017-04-12	日产自动车株式会社	接合状态检查方法
US10466204B2 (en)	2013-01-15	2019-11-05	Automotive Energy Supply Corporation	Welding state inspection method
CN105397270A (zh) *	2015-12-23	2016-03-16	苏州润昇精密机械有限公司	一种超声波焊接机
US10371720B2 (en)	2016-11-04	2019-08-06	Endress+Hauser Conducta Gmbh+Co. Kg	Method for producing a sensor
DE102016121108A1 (de) *	2016-11-04	2018-05-09	Endress+Hauser Conducta Gmbh+Co. Kg	Verfahren zur Herstellung eines Sensors
WO2021089124A1 (fr) *	2019-11-05	2021-05-14	Schunk Sonosystems Gmbh	Dispositif de soudage par ultrasons avec détection de position de partenaires de jonction
KR20220090503A (ko) *	2019-11-05	2022-06-29	슈운크 소노시스템스 게엠바하	접합 파트너의 위치 감지를 갖는 초음파 용접 장치
CN114728367A (zh) *	2019-11-05	2022-07-08	崇德超声波有限公司	利用接合偶定位检测的超声波焊接装置
CN114728367B (zh) *	2019-11-05	2023-09-19	崇德超声波有限公司	利用接合偶定位检测的超声波焊接装置
US20240091874A1 (en) *	2019-11-05	2024-03-21	Schunk Sonosystems Gmbh	Ultrasonic welding device with position detection of joint partners
US11980963B2 (en)	2019-11-05	2024-05-14	Schunk Sonosystems Gmbh	Ultrasonic welding device with position detection of joint partners
CN111604249A (zh) *	2020-04-15	2020-09-01	南京航空航天大学	一种大振幅的超声振动平台及其操作工艺
CN111702609A (zh) *	2020-07-15	2020-09-25	迈微思(深圳)科技有限公司	滤波器调试加工设备

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